Automatic control apparatus



i 20, 1 E. H. HART wwomnc CQNTROL APPARATUS- Filed Feb. 28, 1941 INVENTOR EUGENE H. HART ATTORNEY Patented July 20, 1943 UNITED STATES PATENT OFFICE! Eugene H. Hart, Waterbury, Conn, assignor to ,The Bristol Company, Waterbury", Conn., acor- 1 poration of Connecticut Application February as, 1941, Serial No.'380,984 I 18 Claims. (01. 50-10) v p This invention relates to automatic control of point of distribution, or the failure of the elecfluid pressure, and more especially to means for 7 automatically controlling the pressure of natural gas in a distribution system and. at the same time providingfor emergency or abnormal conditions which may arise.

In the control of pressurein systems where natural gas is distributed through a local system, it iscustomary to provide at the point of supply from a highpressure pipe line a regulating valve which automatically reduces thel pressure from that of the pipe line to a predetermined distribution value. Regulators for this trical supply upon which the remote regulating system is dependent for its operation or damage to any of the interconnecting electrical circuits. In this invention provision is made of auxiliary control devices interlocked with a remote regulating system, which may be of a more or less conventional type, whereby the hereinabove mentioned abnormal conditions are infallibly met, and at-the same time a minimum of departure from normal operating conditions introduced.

Other features and advantages will be hereinafter more particularly described and claimed.

purpose are well-known, and are available in a wide variety of forms. a H The distribution or. downstream pressure at a regulating valve of this type is usually controlled by a weight adjustably positioned on a lever arm; and in many installations it is customary for an attendant to visit the regulator periodically during the day and adjust this weight so as to modify the pressure to meet variable demands on the gas. Since it is quite usual for regulators of this type to be located on the outskirts of a municipality, it is frequently desirable,

in order that change of head due to flow conditions be taken care of, that the downstream pressure at the-regulator be set to a value con-' siderably different from the pressure value which is required at the actual center of distribution.

With this in view there have been developed various-systemswherebythe pressure at a selected point in the distribution system is continuously measured, and by some form of remote control equipment (usually electrical) caused to, adjust the setting of the regulator so that a substantially constant pressure will be maintained at the point of measurement without respect to the actual pressure on the "downstream side of the regulator.

Owing tojthe hazardous conditions attending distribution of gas, it is highly important that Fig. 1 of the drawing is a diagrammatic representation of a gas control system embodying the principles of the invention.

Fig. 2 is a sectional view to an enlarged scale of an element incorporated in the controlling mechanism.

Referring to Fig. 1 of the drawing, the numeral Ill represents a weighted regulating valve adapted for the supply of gas from a high pressure main H to a low pressure main l2 at.a predetermined pressure covered by the. effective action of a weight I3 adjustably positioned on a lever arm I 4 forming an element of the valve I0 and so associated with the internal parts thereof that an increase in the effective influence of said "weight will produce an increase in pressure of gas as delivered to the main it, while a decrease of said action will be reflected in a corresponding lowering of said pressure.

1 Automatic control of the regulated pressure at the valve In is eifectedby instrumentalities hereinafter to be described superimposingtheir influence upon said regulator and governed in turn by pressure as measured at a point I5 on a dead-. end" connection [6 located at a selected point of the distribution system. The instrumentality auxiliary regulating apparatus ofthis class incorporate very complete "fail-safe features, so that upon thedevelopment of any abnormal condition which might affect the performance of the control apparatusin an undesirable manner, the

systerrr will continue to operate without the intro ctio'n of any dangerous condition, and with afnii mum of interference with distribution of gas ta normal pressure value. l

limong 'the causes which may be enumerated asp'os's'ible sources of undesirable condition, there may be' nrentioned the attainment of an. abnormallyhigh or abnormally low pressure at the through which thelbasic control of the regulator i0 is effected may preferably consist of a pneumatic control device ll embodying the principle fully set forth in U. S. Letters Patent 1,880,247, issued October 4, 1932, to applicant's assignee.

As utilized" in this invention the instrument l'I includes an orifice member l8 having operatively. associated therewitha movable vane IS, on a disclosed in U. S. Letters Patent 2,040,918, issued to applicant's assignee, May 19,- 1936, and'including a constant speed electric motor 26, an electromagnet 21, and a spindle or shaft 28, carrying the vane member I9, the elements of said telemetering apparatus being so interrelated that the positioning of said spindle through a limited angle by action of the motor 26 will be dependent upon the relative durations of cyclically recurrent impulses imparted to the electromagnet 21.

A three-way pilot valve 32 is connected to the conduit 2| and adapted for operation from the bellows 20 in such a manner that the pressure of air or other elastic fluid derived from conduit 2| may be regulated in conduit 33 according to the pressure within said bellows member. 'The combination of the valve 32, the bellows 20, the orifice member l8, and the vane l9 together with the constriction 22 constitutes the equivalent of a pneumatic controller as set forth in above-mentioned U. S. Letters Patent 1,880,247.

Mounted in proximity to the regulating valve I is a pneumatically actuated diaphragm member 39, adapted to be subjected to fluid pressure through a conduit 40 (which, under conditions hereinafter to be set forth, may be connected to the conduit 33). The member 39 is connected through a linkage 4| to the arm I 4 oi' the regulator, and may, or may not, entirely replac the weight i3, whereby the loading on said arm, and therefore the output pressure of the regulator,

' whereby said electromagnet 21 will be energized,

- in each or successive cycles.-- ..of rotation of the scroll plate 55, for a duration'governed by the position of the pointer 54 in the instrument Si,

will be subject to pneumatic pressure existing in a said diaphragm element. While, of course, compressed air may be employed as the working to a value suited to use in the controlling mechanism. Between the regulator 46 and the conduit 2| is installed a normally-closed solenoidoperated valve 41 the purpose of which will hereinafter be set forth. Electric power from a source 48 is applied through a circuit 49 to the motor 26; and the solenoid-operated valve 41 is energized from the same source through a circuit 50.

In order that the action of the controlling mechanism may be rendered subject to the pressure'a-t a selected point in the system, an instrument 5| including a pressure-sensitive member 52 is installed in proximity to the center of distribution, with said member connected by a conduit 53 to the point I5 on the dead-end connection Hi. The instrument 5i takes the form of a telemetering transmitter of the impulse type, and may be similar to that disclosed in U. S. LettersPatent 2,214,159, issued to applicants assignee, September 10, 1940. In this instrument a pointer 54, mechanically connected to the pressure-sensitive element 52, is caused to traverse a scroll plate 55 rotated at a constant velocity by an electric motor 56. The'scroll plate 55 has an and therefore by the pressure as measured at the point 15 in the gas main it.

Thus the lever I! on. the mechanism 25 will be positioned in response to the pressure as measured at the selected point on the gasdistribution system. The vane I! will therefore have its controlling action modified in accordance with the pressure at the point i5, so that the ultimate control effected by'the regulator III will maintain the pressure at said point at a predetermined value. I

The apparatus as thus far disclosed is wellknown in the practice of natural gas distribution, and for it no invention is herein claimed. Practical operation of systems of this naturehave shown that certain troubles which may develop in such a system may be productive of undesirable operating characteristics. Forexample, failure of electric power at the source of supply 59, or a defect developing in the instrument 5| or in the circuit 60, may'cause the lever arm 28 in the instriunent l! to be deflected to one extreme or the other of its path, whereby the instrument II will tend to regulate the pressure of the gas to an abnormally high or an abnormally low value. Again, failure or electric power at the source 48 or trouble in the motor 26 may likewise cause false regulation on the part of the'instrument l1.

An auxiliary instrument 6| includes two pressure-sensitive elements 62 and 63, each connected through a conduit 64 to the pipe line l2 at the downstream side of the regulator 20, whereby they are made responsive to the pressure at that point. Attached to the element 62 by a link 65 is an arm 68'pivoted about an axis 61 and adapted to be deflected thereabout through a limited angle by movement of said element in response to changes in pressure applied thereto. An arm 68, also pivoted about the axis 61, is adapted to be engaged by the arm 56 when the pressure applied to the element 52 attains a value below a-predetermined minimum as established by an adjustable abutment 69 carried by the arm 68 coacting with a projecting lug III forming a part of the arm 66. Attached to the element 83 by a link II is an arm I2 pivoted about an axis 13 and adapted to be deflected thereabout through a limited angle by movement of said last-named element. An arm II, also pivoted about the axis value exceeding a predetermined maximum as established by an adjustable abutment 15 carried by the arm 14 coacting with a projecting lug I6 arcuate leading edge and a spiral trailing edge adapted to engage said pointer whereby, through a rocker plate 51, adapted to be actuated by the displacement of said pointer from its normal plane of excursion through engagement with the scroll plate 55, a circuit-controlling element 58 may be actuated to close and open a contact 58 in response to the engagement and disengagement of said pointer by the scroll plate. The

forming a part of the arm .12.

The arms 68 and I4 are connected together by an extended link 11 hinged at a point intermediate said arms and pivotally attached at said i point to a lever arm 18 which is pivotally mount- -motor 56 is supplied with electric power from a ed upon the base of the instrument ii. The arm I8 carries a narrow vane 19 cooperating with an orifice member (which may be similar t'o'meir'rber I 8) to obstruct the escape of pressure fluid from the jets thereof when said arm 18 is in its middle position. A centering spring 8| extended between a point on the link I1 and a point 82 on Q the framework of instrument "I I, tends to mainj I In ieverarmIL llnk IWand 'arms "and" said'centraior neutral position lying between I said predetermined minimum and'maximum vaiues whereby :the vane" member 19 normally obs'tructs thejets' of oriflce member 90. g A further oriflce member 9|, similar to member "18'. ismounted within the instrument I and has '3 in said bellows, said brakingmember engage ,the braking surlaceltbandwhen fluid pressure 1 is released from the interior of said element'the brake member .I IIl-under-the influence of spring I I2 will-be withdrawn from-engagement with the surface III9.- "Iheinterior oi-bellows'III is di-' .rectly connected" to conduit "fandthereio're I cooperating'therewith avane member 82'. carried .by. a lever 92, which is pivoted for; deflection through a limited angle about a flxed axis 83 -.and is"connected bya link Q9 to the lever -I9 on I the receiving mechanism 25 in instrument-I1. 'I'l'ie vane-.92 is made of such a width that, so

longlas the lever I9 operates within its normalmade responsive to pressure as controlled by the 'three-wayvalve in the instrument I;

An oriflce member II3, similar tomember I9 and located within, the instrument 93; is con- 1 nected to a conduit III adapted to receive pressurefluid through aconstriction' I I from a conduit I I9, and has cooperating therewith a vane member I I I rotatable about a spindle I I9 mounted on the franie'cf said instrument. A threeway pilot valve member II9, actuated bya bellows member I29 connected to the conduit Ill.-

isadapted .to receive pressure fluid from conduit H6 and to regulate a supply of the same into conduit 92 according to the position of said bellows member. The arrangement of these lastnamed parts is such that upon the vane III cober 39 and is'connected through a constriction 81 V ,to the conduit II; A three-way pilot valve 38,

adapted for operation by thebeilows 86, is connected by means ofa conduit'39 to receive a supply of pressure fluid from the low pressure side of regulator 46 and to deliver pressure fluid to a conduit 99, the action of the valve being such that. upon removal of'pressure within said I bellows, conduits 89 and 90 are placed in free intercommunication, and when pressure is applied within the bellows, conduit 99 is cut oft from communication with conduit-99 and is vented to v i the atmosphere. A three-way, diaphragm operated valve 9| is connected to the diaphragm of pneumatically actuated loading element 39 through the conduit in such a manner as to admit pressure fluid to said conduit from-the conduit 33' or to place conduit III in communication with a cp'nduit 92; according to whether fluid pressureds'released from, or applied to, the diaphragm of valve 9|. d An auxiliary regulating instrument 93 has mounted thereon two-pressure-sensitive elements 94 and"; both connected to theconduit 94, whereby they are made responsive to pressure at thedownstream side of the regulator l9.

Attached to the element 94 by means of a link-p age 96 is a pointer arm 91 carryingan index98 cooperating with a graduated, scale 99 to provide a measure of the pressure in conduit 64. Connected to element 95 by means of a link I99 is 'aniovable arm IIII pivoted about an axis I92 on the'framework of instrument 93. Mounted also for deflection through a limited angle about the axis I 92 is an arm I03; The arm IIII is resiliently coupledito the arm I93 by a connection which includes a bifurcated part car ied by the arm IIII and between the extremities-oi which are extended two tension springs IIIS and I96, both attached to the arm I03, whereby the latter is normally maintained in a definite position'with respect to the arm IIII and, ,unless constrained.

will deflect integrally therewith. e

Pivotally mounted about a flxed axis I91 in the instrument 931s a lever member I99 having a braking surface I99.adapted to be engaged by a brake member. III), and thereby constrained from deflection about" said axis. The brake member III) is operatively-associated with aibellows 'member IITI, adapted for actuation by internal fluid pressure, in opposition to the influence. of

a spring'l IZQwhereby, when fluid pressure exists operating with the jets of orifice member, I I3 to obstruct the escape of pressure fluid therefrom, there will be built up a pressure within the con- .duit I. inflating the bellows I29 in a sense to lower the fluid pressure in conduit 92; and, upon the vane I I! being moved out of engagement with the orifice member N3, the escape oil pressure fluid therefrom, coupled 'with the effect of the constriction 5,. will cause the pressure in the bellows I29 to be reduced, shifting the valve II9 to a position whereby a pressure of the fluid from conduit up within the conduit92.

A differential lever member I2I, having thereon ,three pivot points of connection, one at each extremity, and one intermediate itsextremities, is pivoted at said intermediate point upon the vane member III- One of the said extreme pointsis I I 6 will be built connected to the link 96 and thereby'to the pressure sensitive element 94; and. the other end is.

connected by means of a link I22 to the arm I03. A further-differential lever I23 having three pivot points of connection, one at each extremity and one therebetween, is pivoted at said intermediate p'olnt upon an extended arm I 24 forming a part of the lever member I99. One extremity of said last-named differential lever is attached by means of a rigid link I25 to the arm I93; and the otherextremity of said lever carries a pivoted nut I29 threadedly engaging "a thumb-screw I21 rotatably mounted on the frame of the instrument 99,

whereby said last-named extremity of lever I23 may be manually adjusted through a limited range. A pointer-arm I29. mounted coaxially with the arm 91 and connected to the arm I03 by connected between the conduits 89 and tinsuch amanner that whenfiuid pressure is applied to the operating element. of said valve; said condui ts will beplaced in communication with each other, and when fluid pressureis removed from. said valve conduit ilt willbe shut off from conduit 89.

n Operation of; the controi system, embodying the invention will -bebest understood by considering the performanceoi the severalelements thereof under various conditions which may arise and noting the resultant eflect upon the ultimate control. Theseconditions may be grouped under the iollowingheads:

(1) Normal operation complete, and the receiving unit 25 continually tending to position the vane I3 in response to cyclical impulses developed by the mechanism of instrument 8|. The solenoid valve ll being energized from the source 88, and the reducing valve 88 properly adjusted, there will beavailable at the instrument I! through the conduit 2i a continuous supply of pressure fluid for purposes of operating the regulating apparatus. The vane I8 in the instrument 8i being in its center position, corresponding to regulated gas pressure beingwithin the normal control range, as established by the adjustments 83 and 15 associated with the Bourdon springs 82 and 53 respectively,

and the vane 82' lying within the oriflce member 8|, pressure will be built up in the conduit 85, the bellows 88 inflated, and the valve 88 actuated in a sense to close oil any supply of pressure fluid from the conduit 89 to the conduit 80, and

vent the latter to the atmosphere. Pressure 1 fore set forth, the instrument II will impose upon the regulator I a controlling influence tending to maintain at the distribution center of the system a constant and predetermined pressure of gas. -e

Under normal operating conditions the Bourdon springs 84 and 85 in the auxiliary regulator 83 will both respond to variations in controlled pressure at the delivery side of the regulator I0, as communicated to said springs by the conduit 84. There being no pressure within lzhe conduit 80, the bellows member III will remain deflated, and the brake member IIIJ maintained out of engagement with the braking surface I09 by action of the spring H2. The diflerential lever I23 is thus free to swing about its pivot point on the nut I26, and arms IM and I03, being maintained integral by the springs I and I06, will be deflected as a unit about the axis I02 under influence of the Bourdon spring 95 acting through the link I00. The pointer arm I28, being connected to the arm I03 by the link I29 will be deflected with movement oi. said arm, so that, so long as arms I03.and IOI move as a unit, the index I30 will provide on the scale 98 a measure oi pressure as determined by the Bourdon spring 9 Tho Bourdon spring 88, being connected to the conduit 34, will also be deflected with changes in pressure therein; and,- acting through link 98, will actuate a pointer arm 91, whose index 98 will provide on the scale 09 a measure of pressure applied to said last-named Bourdon spring. The two Bourdon springs 84 and 95 and their associated elements are so positioned, proportioned, and adjusted that under normal operating conditions the two indices 08 and I30 move together, and read on the same point of the graduated scale 88. The differential lever I2I, being linked to the Bourdon spring 84 and to the arm I03, which normally moves with the Bourdon spring 88, partakes oi the Joint influence of these sensitive elements; and the relative parts are so positioned and adjusted that the eilects of the two Bourdon springs on said lever are not engaged with the braking surface I08 and the lever member I08 is free to move, adjustment oi. the extremity oi the floating lever I23 by manipulation of the screw I21 will onlyhcause the lever member I08 to have its position-varied,

and will produce no eflect on the position of the V arm I 03 or upon setting of the measuring or controlling elements of the instrument 83.

(2) Failure of electric power The principle of operation oi. the receivingmechanism 25'in the instrument ll, as is fully set forth in the hereinbefore mentioned Patent No. 2,040,918, is such that upon the electromagnet 21 ceasing to receive cyclical impulses, the spindle 28 will immediately be deflected to one or the other of itsextremes of travel, according to whether the magnet remains energized or deenergized. Sucha condition would develo in the event of failure of the electric supply 89, interruption of the circuit 60, or any defect in the motor or mechanism of instrument II which might result in termination of the succession of cyclic impulses necessary to the operation of the receiving mechanism 25. Upon'deflection of the spindle 28 to either of its extremes, the vane member 82', connected to the receiving mechanism by the link 84, will be deflected about the axis 83 to an extent that it no longer obstructs the escape of pressure fluid from the oriflce member 8i. Because of the constriction 81, pressure in the conduit 85 ,will at once fall to a low value, deflating the bellows member. 88, causing the valve 88 to be opened in a sense to cut conduit 30 of! from communication with the atmosphere, and admit thereto pressure fluid from the conduit 89. In the event of failure of the electric power supply 48 at the regulating instrument, the motor 26 will come to rest, and will no longer be able to position the vane member I9 in a sense to effect regulation. Under this condition, however, the solenoid valve 41 will be de-energized, and will at once shut oilthe supply of pressure fluid not only to the regulator I! but also to the elements of the instrument 8i, whereby the bellows 88 will become deflated, and the valve 88 opened. Since the conduit 89 receives its supply of pressure fluid from a point between the reducing valve 88 and the solenoid valve 41, said fluid will be admitted freely to the conduit 30 whether valve- 41 be opened or closed. Thus, under any condition involving failure of electrical circuits or supply, pressure will at once be built up in said conduit 90 and applied to the diaphragm tops of valves I3I and SI. Application of pressure to I the diaphragm valve I3Iv will cause the same to be opened, placing conduit H8 in communication with conduit 88, making available a supply of pressure fluid for the operatlon'oi' the auxiliary regulator 33. Application of pressure to the three-way valve 8i will cause the'conduit II to be cut oil. from communication with the conduit 33 and placed in communication with the o served that, so long as the brake member III is g 9,894,570 conduit 02 adapted to receive a supplybf pres-" sure through the three-way pilot valve Ill, thus transferring from pilot-valve 32 to pilotvalve III the function of regulating fluid pressure applied to the diaphragm member 39. Pressure within the conduit will be communicatedfto the bellows member III, which, overcoming the spring II2, will force the brake member IIO into engagement with the braking surface I09, looking theiever member I08 against movement so long as said pressure exists. The intermediate pivot point of the floating lever I23 will thus become fixed; and, so long as the adjustment I21 is not operated, the whole of said floating lever will be stationary, so that said lever, acting through the rigid' link I25, will serve to lock the arm I03 and all parts linked thereto, in-' cluding the pointer arm I28 and one extremity of floating lever I2I, against further motion. The index I30 will thus indicate on the scale 99 the pressure within the conduit 60 at the moment the auxiliary apparatus went into action.

Further "variations of pressure within the conduit 64 will cause the Bourdon spring 04, acting through the link 96, to affect the positionof, one extremity of the floating lever I2I; and,

the other extremityof said lever being locked, the 'vane member I" will become'responsive to such changes, coacting with the orifice member II3 to actuate the bellows member I and the three-way pilot valve II9 to control fluid pressure within the conduit 92 and the conduit 40,

thus serving to control the pressure of gas on the delivery side of regulator I0 to maintain substantially the pressure which existed at the moment when the auxiliaryapparatus went into operation. While the arm I03 remains locked in position, .the resiliency of the. springs I05 and I09 will permit motion of the arm [M in response to deflection of the Bourdon spring 05 with variations in gas pressure,. and will prevent any undue strains upon that part of the mechanism. The pointer arm 91 will continue to be deflected with motion of the Bourdon spring 94,

f and its index will thus provide on the scale 99 a measure of the actual controlled pressure of gas on the downstream side of the regulator, as compared with the flxed indication of the index I30, representing the pressure at the instant the auxiliary apparatus went into action and thus the automatically established control value toward which regulation is directed. Manual adjustment of the screw I21, by shifting the lever I23 about its intermediate pivot point, will correspondingly move one extremity of the lever I2I,

and also'the pointer arm I29, thus making possible the setting of the control point established by the instrument 93 to any desired value, which will be indicated by the index I on the scale 99, and enabling a compensation for loss of head due to different flow rates to be readily introtrical circuits, it is-not impossible that situations I mayarise (such as sticking, clogging,or leakage in a valve part, or in mechanical failure of asso- In order to meet such a condition, there are 'prociated elements) which would not be at once reflectedin deflection of the vane 02' to either limit of its excursion or in closing of the solenoid valve 41. The obvious immediate effect of such maljiunctioning will be found in the-regulated gas pressure rising above a pre-established maximum value or falling below a pre-established minimum.

vided in the auxiliary instrument H the pressuresensitiveBourdon springs 62 and 63, and elements actuated thereby. The adjustable abutments I5 and 69 are manually. set to positions correspond ing respectively to the permissible maximum and minimum pressures defining the normal zone of operation; and normally neither of these abutments is engaged by the corresponding lugs on the arms associated with the respective Bourdon springs. The centering spring 8I, acting on the arm 'It mainta'ins the same in its mid-position Y with the-vane element 19 obstructing the jets of of pressure fiuid therefrom.

the orifice'member 80 and preventing the escape Should the controlled pressure for any reason exceed the permissible maximum value, the lug i 6 carried by the arm 12, under the influence of Bourdon spring I3, will engage the adjustable abutment 15, causing the arm 14 to be deflected, and to act through the link 11 in opposition to the centering influence of the spring 8I to swing .the arm 18 and deflect the vane member I9 to a position where it no longer obstructs the jets of the orifice member 80. Escape of pressure fluid I from the orifice member 80 will be reflected in a lowering of pressure in the conduit 85, deflation of-the bellows member 80, and opening of the pilot valve 98, causing a pressure to be built up in the conduit 90, as hereinbefore set forth under the heading of Failure of electric power, with resultant transfer of the controlling function to the auxiliary regulator 93, and the avoidance of hazardous conditions. v In the same manner, should the controlled pressure for any reason fall below the permissible minimum, as established by the setting or the adjustable abutment 69, the Bourdon spring duced until complete automatic control is reestablished. Thus, it will be clear that, in the -event .of failure of the electric power supply at '3 either end of the system or of any of the electricalcircuits, automatic regulation of pressure will be continued through'purely'fluid-pressureactuated instrumentalities, the only sacrifice lying in the transfer of the constant pressure point from the selected location to the regulator.

(3) Mechanical failure While the operation of the control apparatus as hereinbeiore set forth willserve to meet ab normal conditions arising from failure of elecconstant pressure at a selected distribution center, together with means for ensuring continued regulation and the'avoidance of hazardous conditions in the event of failure of electric power or interconnecting circuits or of malfunctioning of the controlling equipment.

The terms and expressions which I have employed are used as terms of descriptionfandnot of limitation, and I have no intention, in the use of such terms and expressions, of excluding any equivalents of the features shown and described orportions thereof, but recognize that various modifications are possible within the scope of the invention claimed. I claim: o l

l.'In asystem for the distribution of a fluid at a. regulated pressure: a main controller for regulating said pressure and responsive only to cyclical impulses to establish the value of said pressure, and an instrument for producing in successive uniform time cycles a-series of impulses representative of values of a pressure to be re ulated, electrical means for communicating said impulses to' said main-controller, an auxiliary controller dependent for its operation solely upon fluid pressure conditions, and means for transferring the regulating function from said main controller to said auxiliary controller upon cessation of said series'of impulses.

2. In a system for the distribution of a fluid at a regulated pressure: a loaded regulator for governing said pressure, a main controller for modifying the action of said regulator and including a continuously running electric motor and a circuit for the same, an auxiliary controller dependent for its operation solely upon fluid pressure conditions, and means comprising electrically-actuated valve means energized from said circuit for transferring the modifying function from said main controller to said auxiliary controller upon deenergization of said circuit.

3. In combination: a main control instrument adapted to perform a regulating function upon a variable within a limited range of variation, a normally inactive auxiliary control instrument adapted alternatively to perform said function,

selector means for bringing said auxiliary instrument into action and transferring said control function from said main to said auxiliary instrument, and a relay instrument including means adapted to be actuated by said main control instrumerit for operation of said selector means when said range is exceeded.

4. In combination: a main control instrument adapted to perform a regulating function upon a variable within a limited range of variation, an auxiliary control instrument adapted alternatively to perform said function, fluid-pressureactuated selector means for transferring said function from said main to said auxiliary instrument, valve-means for controlling the admission of pressure fluid to said selector means for actuation of the same, and means actuated from said main control instrument and adapted to actuate said valve means when said range is exceeded.

5. In'combination: a main control instrument adapted to perform 'a regulating function upon a variable within a limited range of variation, an auxiliary control instrument adapted alternatively to perform said function, fluid-pressureactuated selector means for transferring said function from said main to said auxiliary instrument, valve-means for controlling the admission of pressure fluid to said selector means for actuation of the same, and means mechanically actuated from said main control instrument and adapted to actuate said valve means when said range is exceeded.

6. In combination: a main control instrument adapted to perform a regulating function upon a variable within a limited range of variation, an auxiliary control instrument adapted alternatively to perform said function, fluid-pressureactuated selector means for transferring said function from said main to said auxiliary instrument, valve-means for controlling the admission of pressure fluid to said selector means for actuation of the same, and means sensitive to changes in said variable and adapted to actuate said valve means when said range is exceeded.

7. In a control instrument: a control couple adapted to the regulation of a variable, means responsive to changes in said variable, it normally ineffective mechanical train between said couple and said-means, whereby said couple is normally insensitive to response of said means, means responsive to a condition of said variable and adapted to establish said train to render said couple sensitive to response of said firstnamed means, together with means adapted at all times to indicate the value of said variable and means rendered effective at the instant of establishment of said train to provide during the time of such establishment an indication of said variable at said instant.

8. In a system for regulating the value of a variable, a main control instrument, an auxiliary control instrument including a control couple adapted to the regulation of said variable, means responsive to changes in said variable,a normally ineffective mechanical train between said couple and said means, whereby said couple is normally insensitive to response of said means, and means responsive to a condition in said main controller and adapted to establish said train to render said couple sensitive to responses of said first-named means, together with means efiective only when said train is complete for superimposing a manual adjustment upon said couple.

9. In a control instrument: a control couple adapted to the regulation of a'variable, differential means adapted to the actuation of said couple, two elements sensitive to variations in external influences, means providing a direct connection between one of said elements and said differential means, a mechanical train providing connection between the other of said elements and said differential means, and including a floating lever having a movable fulcrum, a resilient member having two parts adapted to operate as an integral unit when neither of said parts is restrained, means subject to an external influence for restraining one of said parts, and manually adjustable means for moving the fulcrum adapted to the regulation of a variable, differential means adapted to the actuation of said couple, two elements sensitive to variations in exence for restraining one of said parts, manually adjustable means for moving the fulcrum of said floating lever, together with means to indicate at all times the position of one of said sensitive elements, and means to indicate the position of said restrained part.

11. In a control instrument: a control couple adapted to the regulation of a variable, means responsive to changes in saidvariable, a linkage including a differential member, a locking memher and a resilient member and providing a dual mechanical train between said variable-responsive means and said control co'uple whereby, when said locking member is released, said train, acting through said differential member, subjects said control couple to equal and opposed influences, and, when said locking member is engaged,

said resilient member will yield to permit said couple to be subjected to an influence representative of said response of said variable-responsive means to regulate said variable, together with means subject to a condition of said variable for actuating .said locking member.

12. In a fluid-pressure-actuated controller,

valve means adapted to ,afiect apressure fluid for control purposes, difierential meansadapted to the actuation of said valve means, pressure sensitive means, a plurality of linkages between said last-named means and said diiferential' means, whereby the net effect of said sensitive means upon said valve means is normally nil,

together with further means for locking one of said linkages, whereby the net efiect (if said sensitive means upon said valve is made representative of variations in the pressure applied to said pressure-sensitive means.

13. In a fluid-pressure-actuated controller:

valve means adapted to affect a pressure fluidfor controlpurposes, differential means adapted to the actuation of said valve means, pressuresensitive means, a plurality of linkages between said last-named means and said differential means, and adapted to render the net effect of said sensitive means upon said valve means normally nil, together with further means including a yielding-element and adapted for locking one of-said linkages, whereby the net eifect of said" sensitive means uponsaid valve. is made representative of variations in the pressure applied to said sensitive means.

14. In a system for the distribution of a gaseous fluid at a regulated pressure: a main controller for regulating said pressure, an, auxiliary controller for alternativelyregulating said pressure,

valve means in said auxiliary controller adapted to affect a pressure fluid for regulating said firstnamedpressure, pressure-sensitive means re sponsive to said regulated pressure, a linkage between said pressure-sensitive means and said .valve means, including means whereby the net eflect of said sensitive means upon said valve means is normally nil, togetherwith means responsive to abnormal conditions in said main controller for modifying said linkage whereby the net eflect of said sensitive means upon said regulated pressure, and means also responsive to said conditions for transferring the regulating function from said main controller to said auxiliary controller.

15. In a control instrument; a control couple I adapted to the regulation of a variable, measuring means sensitive to changes in said variable,

a linkage including a' differential member connected to an element of-said couple, and two mechanical trains connecting said measuring means to said diiferential'memb er, one of said trains providing aidirect connection, and the other train'including a yielding member having Y one part directly connected to said sensitive.

means and another part connected to said differential member, said parts being interconnected. through resilient elements tending to maintain said parts integral, whereby, so longas said parts remain integral, the influences conveyed from said sensitive means to said control couple are equal and opposite, together with a locking element subject to a condition of said variable, and

adapted to lock one of said parts, rendering said pressure at a given point in said system at substantially the value obtaining when said auxiliary controller is brought into. action.

' 17. In a system for the distribution of a gaseous fluid at a regulated pressure, a main controller for regulating said pressure, a normally inactive auxiliary controller for regulating said pressure, means responsive-to failure of eifective regulation by said main controller for bringing said auxiliary controller into action to maintain the pressure at a given point in said system at substantially the value obtaining when said auxiliary controller is brought into action, and manually operable means for altering at will the action of said auxiliary control means to maintain said pressure at another value.

18. In a system for the distribution of a fluid at a regulated pressure: a main controller for regulating said pressure and responsive to the v durations of cyclical impulses to establish the value of said pressure, and an instrument for producing in successive uniform time cycles a valve is made representative of variations in said i series of impulses having durations commensurate with values of a pressure to be regulated,

electrical means for communicating said impulses to said main controller, an auxiliary controller dependent for its operation solely upon fluid pressure conditions, and means for transferring the regulating function from said main controller to said auxiliary controller upon cesse.

'. tion of said series of impulses.

appear: a. nan'r. 

